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/*
$Id: quicktimeapple.c 4620 2009-11-01 21:16:58Z matju $
GridFlow
Copyright (c) 2001-2009 by Mathieu Bouchard
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
See file ../COPYING for further informations on licensing terms.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <QuickTime/QuickTime.h>
#include <QuickTime/Movies.h>
#include <QuickTime/QuickTimeComponents.h>
#include "gridflow.hxx.fcs"
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <CoreServices/CoreServices.h>
typedef ComponentInstance VideoDigitizerComponent, VDC;
typedef ComponentResult VideoDigitizerError, VDE;
#if 0
//enum {VDCType='vdig', vdigInterfaceRev=2 };
//enum {ntscIn=0, currentIn=0, palIn, secamIn, ntscReallyIn };
//enum {compositeIn, sVideoIn, rgbComponentIn, rgbComponentSyncIn, yuvComponentIn, yuvComponentSyncIn, tvTunerIn, sdiIn};
//enum {vdPlayThruOff, vdPlayThruOn};
//enum {vdDigitizerBW, vdDigitizerRGB};
//enum {vdBroadcastMode, vdVTRMode};
//enum {vdUseAnyField, vdUseOddField, vdUseEvenField};
//enum {vdTypeBasic, vdTypeAlpha, vdTypeMask, vdTypeKey};
/*enum {digiInDoesNTSC, digiInDoesPAL, digiInDoesSECAM, skip 4,
digiInDoesGenLock, digiInDoesComposite, digiInDoesSVideo, digiInDoesComponent,
digiInVTR_Broadcast, digiInDoesColor, digiInDoesBW, skip 17,
digiInSignalLock};*/
/*bitset {digiOutDoes1, digiOutDoes2, digiOutDoes4,
digiOutDoes8, digiOutDoes16, digiOutDoes32,
digiOutDoesDither, digiOutDoesStretch, digiOutDoesShrink,
digiOutDoesMask, skip 1,
digiOutDoesDouble, digiOutDoesQuad, digiOutDoesQuarter, digiOutDoesSixteenth,
digiOutDoesRotate, digiOutDoesHorizFlip, digiOutDoesVertFlip, digiOutDoesSkew,
digiOutDoesBlend, digiOutDoesWarp, digiOutDoesHW_DMA,
digiOutDoesHWPlayThru, digiOutDoesILUT, digiOutDoesKeyColor,
digiOutDoesAsyncGrabs, digiOutDoesUnreadableScreenBits,
digiOutDoesCompress, digiOutDoesCompressOnly,
digiOutDoesPlayThruDuringCompress, digiOutDoesCompressPartiallyVisible,
digiOutDoesNotNeedCopyOfCompressData};*/
/*struct DigitizerInfo {
short vdigType;
long inputCapabilityFlags, outputCapabilityFlags;
long inputCurrentFlags, outputCurrentFlags;
short slot;
GDHandle gdh, maskgdh;
short minDestHeight, minDestWidth;
short maxDestHeight, maxDestWidth;
short blendLevels;
long reserved;};*/
/*struct VdigType { long digType, reserved;};*/
/*struct VdigTypeList { short count; VdigType list[1];};*/
/*struct VdigBufferRec { PixMapHandle dest; Point location; long reserved;};*/
/*struct VdigBufferRecList {
short count; MatrixRecordPtr matrix; RgnHandle mask; VdigBufferRec list[1];};*/
//typedef VdigBufferRecList *VdigBufferRecListPtr;
//typedef VdigBufferRecListPtr *VdigBufferRecListHandle;
//typedef CALLBACK_API(void,VdigIntProcPtr)(long flags, long refcon);
//typedef STACK_UPP_TYPE(VdigIntProcPtr);
/*struct VDCompressionList {
CodecComponent codec; CodecType cType; Str63 typeName, name;
long formatFlags, compressFlags, reserved;};*/
//typedef VDCompressionList * VDCompressionListPtr;
//typedef VDCompressionListPtr *VDCompressionListHandle;
/*bitset {
dmaDepth1, dmaDepth2, dmaDepth4, dmaDepth8, dmaDepth16, dmaDepth32,
dmaDepth2Gray, dmaDepth4Gray, dmaDepth8Gray};*/
//enum {kVDIGControlledFrameRate=-1};
//bitset {vdDeviceFlagShowInputsAsDevices, vdDeviceFlagHideDevice};
/*bitset {
vdFlagCaptureStarting, vdFlagCaptureStopping,
vdFlagCaptureIsForPreview, vdFlagCaptureIsForRecord,
vdFlagCaptureLowLatency, vdFlagCaptureAlwaysUseTimeBase,
vdFlagCaptureSetSettingsBegin, vdFlagCaptureSetSettingsEnd};*/
/*\class VDC
VDE VDGetMaxSrcRect (short inputStd, Rect *maxSrcRect)
VDE VDGetActiveSrcRect(short inputStd, Rect *activeSrcRect)
VDE VD[GS]etDigitizerRect(Rect *digitizerRect)
VDE VDGetVBlankRect(short inputStd, Rect *vBlankRect)
VDE VDGetMaskPixMap(PixMapHandlemaskPixMap)
VDE VDGetPlayThruDestination(PixMapHandle * dest, Rect *destRect, MatrixRecord * m, RgnHandle *mask)
VDE VDUseThisCLUT(CTabHandle colorTableHandle)
VDE VD[SG*]etInputGammaValue(Fixed channel1, Fixed channel2, Fixed channel3)
VDE VD[GS]etBrightness(uint16 *)
VDE VD[GS]etContrast(uint16 *)
VDE VD[GS]etHue(uint16 *)
VDE VD[GS]etSharpness(uint16 *)
VDE VD[GS]etSaturation(uint16 *)
VDE VDGrabOneFrame(VDC ci)
VDE VDGetMaxAuxBuffer(PixMapHandle *pm, Rect *r)
VDE VDGetDigitizerInfo(DigitizerInfo *info)
VDE VDGetCurrentFlags(long *inputCurrentFlag, long *outputCurrentFlag)
VDE VD[SG*]etKeyColor(long index)
VDE VDAddKeyColor(long *index)
VDE VDGetNextKeyColor(long index)
VDE VD[GS]etKeyColorRange(RGBColor minRGB, RGBColor maxRGB)
VDE VDSetDigitizerUserInterrupt(long flags, VdigIntUPP userInterruptProc, long refcon)
VDE VD[SG*]etInputColorSpaceMode(short colorSpaceMode)
VDE VD[SG*]etClipState(short clipEnable)
VDE VDSetClipRgn(RgnHandle clipRegion)
VDE VDClearClipRgn(RgnHandle clipRegion)
VDE VDGetCLUTInUse(CTabHandle *colorTableHandle)
VDE VD[SG*]etPLLFilterType(short pllType)
VDE VDGetMaskandValue(uint16 blendLevel, long *mask, long *value)
VDE VDSetMasterBlendLevel(uint16 *blendLevel)
VDE VDSetPlayThruDestination(PixMapHandledest, RectPtr destRect, MatrixRecordPtr m, RgnHandle mask)
VDE VDSetPlayThruOnOff(short state)
VDE VD[SG*]etFieldPreference(short fieldFlag)
VDE VDPreflightDestination(Rect *digitizerRect, PixMap **dest, RectPtr destRect, MatrixRecordPtr m)
VDE VDPreflightGlobalRect(GrafPtr theWindow, Rect *globalRect)
VDE VDSetPlayThruGlobalRect(GrafPtr theWindow, Rect *globalRect)
VDE VDSetInputGammaRecord(VDGamRecPtrinputGammaPtr)
VDE VDGetInputGammaRecord(VDGamRecPtr *inputGammaPtr)
VDE VD[SG]etBlackLevelValue(uint16 *)
VDE VD[SG]etWhiteLevelValue(uint16 *)
VDE VDGetVideoDefaults(uint16 *blackLevel, uint16 *whiteLevel, uint16 *brightness, uint16 *hue, uint16 *saturation, uint16 *contrast, uint16 *sharpness)
VDE VDGetNumberOfInputs(short *inputs)
VDE VDGetInputFormat(short input, short *format)
VDE VD[SG*]etInput(short input)
VDE VDSetInputStandard(short inputStandard)
VDE VDSetupBuffers(VdigBufferRecListHandle bufferList)
VDE VDGrabOneFrameAsync(short buffer)
VDE VDDone(short buffer)
VDE VDSetCompression(OSTypecompressType, short depth, Rect *bounds, CodecQspatialQuality, CodecQtemporalQuality, long keyFrameRate)
VDE VDCompressOneFrameAsync(VDC ci)
VDE VDCompressDone(UInt8 *queuedFrameCount, Ptr *theData, long *dataSize, UInt8 *similarity, TimeRecord *t)
VDE VDReleaseCompressBuffer(Ptr bufferAddr)
VDE VDGetImageDescription(ImageDescriptionHandle desc)
VDE VDResetCompressSequence(VDC ci)
VDE VDSetCompressionOnOff(Boolean)
VDE VDGetCompressionTypes(VDCompressionListHandle h)
VDE VDSetTimeBase(TimeBase t)
VDE VDSetFrameRate(Fixed framesPerSecond)
VDE VDGetDataRate(long *milliSecPerFrame, Fixed *framesPerSecond, long *bytesPerSecond)
VDE VDGetSoundInputDriver(Str255 soundDriverName)
VDE VDGetDMADepths(long *depthArray, long *preferredDepth)
VDE VDGetPreferredTimeScale(TimeScale *preferred)
VDE VDReleaseAsyncBuffers(VDC ci)
VDE VDSetDataRate(long bytesPerSecond)
VDE VDGetTimeCode(TimeRecord *atTime, void *timeCodeFormat, void *timeCodeTime)
VDE VDUseSafeBuffers(Boolean useSafeBuffers)
VDE VDGetSoundInputSource(long videoInput, long *soundInput)
VDE VDGetCompressionTime(OSTypecompressionType, short depth, Rect *srcRect, CodecQ *spatialQuality, CodecQ *temporalQuality, ulong *compressTime)
VDE VDSetPreferredPacketSize(long preferredPacketSizeInBytes)
VDE VD[SG*]etPreferredImageDimensions(long width, long height)
VDE VDGetInputName(long videoInput, Str255 name)
VDE VDSetDestinationPort(CGrafPtr destPort)
VDE VDGetDeviceNameAndFlags(Str255 outName, UInt32 *outNameFlags)
VDE VDCaptureStateChanging(UInt32inStateFlags)
VDE VDGetUniqueIDs(UInt64 *outDeviceID, UInt64 *outInputID)
VDE VDSelectUniqueIDs(const UInt64 *inDeviceID, const UInt64 *inInputID)
*/
#endif
static OSErr callback(ComponentInstanceRecord*, char*, long int, long int*, long int, TimeValue, short int, long int) {
post("FormatQuickTimeCamera callback");
return noErr;
}
\class FormatQuickTimeCamera : Format {
P<Dim> dim;
uint8 *buf;
uint8 *buf2;
VDC vdc;
int m_newFrame;
SeqGrabComponent m_sg;
SGChannel m_vc;
short m_pixelDepth;
Rect rect;
GWorldPtr m_srcGWorld;
PixMapHandle m_pixMap;
Ptr m_baseAddr;
long m_rowBytes;
int m_quality;
//int m_colorspace;
\constructor (t_symbol *mode) {
//vdc = SGGetVideoDigitizerComponent(c);
dim = new Dim(240,320,4);
OSErr e;
rect.top=rect.left=0;
rect.bottom=dim->v[0]; rect.right=dim->v[1];
int n=0;
Component c = 0;
ComponentDescription cd;
cd.componentType = SeqGrabComponentType;
cd.componentSubType = 0;
cd.componentManufacturer = 0;
cd.componentFlags = 0;
cd.componentFlagsMask = 0;
for(;;) {
c = FindNextComponent(c, &cd);
if (!c) break;
ComponentDescription cd2;
Ptr name=0,info=0,icon=0;
GetComponentInfo(c,&cd2,&name,&info,&icon);
post("Component #%d",n);
char *t = (char *)&cd.componentType;
post(" type='%c%c%c%c'",t[3],t[2],t[1],t[0]);
t = (char *)&cd.componentSubType;
post(" subtype='%c%c%c%c'",t[3],t[2],t[1],t[0]);
post(" name=%08x, *name='%*s'",name, *name, name+1);
post(" info=%08x, *info='%*s'",info, *name, info+1);
n++;
}
post("number of components: %d",n);
m_sg = OpenDefaultComponent(SeqGrabComponentType, 0);
if(!m_sg) RAISE("could not open default component");
e=SGInitialize(m_sg);
if(e!=noErr) RAISE("could not initialize SG");
e=SGSetDataRef(m_sg, 0, 0, seqGrabDontMakeMovie);
if (e!=noErr) RAISE("dataref failed");
e=SGNewChannel(m_sg, VideoMediaType, &m_vc);
if(e!=noErr) post("could not make new SG channel");
e=SGSetChannelBounds(m_vc, &rect);
if(e!=noErr) post("could not set SG ChannelBounds");
e=SGSetChannelUsage(m_vc, seqGrabPreview);
if(e!=noErr) post("could not set SG ChannelUsage");
e=SGSetDataProc(m_sg,NewSGDataUPP(callback),0);
if (e!=noErr) post("could not set SG DataProc");
// m_rowBytes = m_vidXSize*4;
switch (3) {
case 0: e=SGSetChannelPlayFlags(m_vc, channelPlayNormal); break;
case 1: e=SGSetChannelPlayFlags(m_vc, channelPlayHighQuality); break;
case 2: e=SGSetChannelPlayFlags(m_vc, channelPlayFast); break;
case 3: e=SGSetChannelPlayFlags(m_vc, channelPlayAllData); break;
}
int dataSize = dim->prod();
buf = new uint8[dataSize];
buf2 = new uint8[dataSize];
m_rowBytes = dim->prod(1);
e=QTNewGWorldFromPtr (&m_srcGWorld,k32ARGBPixelFormat,&rect,NULL,NULL,0,buf,m_rowBytes);
if (0/*yuv*/) {
int dataSize = dim->prod()*2/4;
buf = new uint8[dataSize];
m_rowBytes = dim->prod(1)*2/4;
e=QTNewGWorldFromPtr (&m_srcGWorld,k422YpCbCr8CodecType,&rect,NULL,NULL,0,buf,m_rowBytes);
}
if (e!=noErr) RAISE("error #%d at QTNewGWorldFromPtr",e);
if (!m_srcGWorld) RAISE("Could not allocate off screen");
SGSetGWorld(m_sg,(CGrafPtr)m_srcGWorld, NULL);
//SGStartPreview(m_sg);
e=SGStartRecord(m_sg);
if (e!=noErr) RAISE("error #%d at SGStartRecord",e);
}
~FormatQuickTimeCamera() {
if (m_vc) if (::SGDisposeChannel(m_sg, m_vc)) RAISE("SGDisposeChannel");
if (m_sg) {
if (::CloseComponent(m_sg)) RAISE("CloseComponent");
if (m_srcGWorld) ::DisposeGWorld(m_srcGWorld);
}
}
\decl 0 bang ();
\grin 0 int
};
// /System/Library/Frameworks/CoreServices.framework/Frameworks/CarbonCore.framework/Headers/Components.h
static int nn(int c) {return c?c:' ';}
/*
pascal Boolean pix_videoDarwin :: SeqGrabberModalFilterProc (DialogPtr theDialog, const EventRecord *theEvent, short *itemHit, long refCon){
Boolean handled = false;
if ((theEvent->what == updateEvt) &&
((WindowPtr) theEvent->message == (WindowPtr) refCon)) {
BeginUpdate ((WindowPtr) refCon);
EndUpdate ((WindowPtr) refCon);
handled = true;
}
WindowRef awin = GetDialogWindow(theDialog);
ShowWindow (awin);
SetWindowClass(awin,kUtilityWindowClass);
//ChangeWindowAttributes(awin,kWindowStandardHandlerAttribute,0);
//SGPanelEvent(m_sg,m_vc,theDialog,0,theEvent,itemHit,&handled);
//AEProcessAppleEvent (theEvent);
return handled;
}
void pix_videoDarwin :: DoVideoSettings() {
Rect newActiveVideoRect;
Rect curBounds, curVideoRect, newVideoRect;
ComponentResult err;
SGModalFilterUPP seqGragModalFilterUPP;
err = SGGetChannelBounds (m_vc, &curBounds);
err = SGGetVideoRect (m_vc, &curVideoRect);
err = SGPause (m_sg, true);
seqGragModalFilterUPP = (SGModalFilterUPP)NewSGModalFilterUPP(SeqGrabberModalFilterProc);
err = SGSettingsDialog(m_sg, m_vc, 0, NULL, seqGrabSettingsPreviewOnly, seqGragModalFilterUPP, (long)m_srcGWorld);
DisposeSGModalFilterUPP(seqGragModalFilterUPP);
err = SGGetVideoRect (m_vc, &newVideoRect);
err = SGGetSrcVideoBounds (m_vc, &newActiveVideoRect);
err = SGPause (m_sg, false);
}
*/
\def 0 bang () {
GridOutlet out(this,0,dim);
int n = dim->prod()/4;
for (int i=0; i<n; i++) ((uint32 *)buf2)[i] = ((uint32 *)buf)[i] >> 8;
out.send(dim->prod(),buf2);
SGIdle(m_sg);
}
GRID_INLET(0) {
RAISE("Unimplemented. Sorry.");
//!@#$
if (in->dim->n != 3) RAISE("expecting 3 dimensions: rows,columns,channels");
if (in->dim->get(2) != 3) RAISE("expecting 3 channels (got %d)",in->dim->get(2));
in->set_chunk(0);
} GRID_FLOW {
} GRID_FINISH {
} GRID_END
\end class FormatQuickTimeCamera {install_format("#io.quicktimecamera",4,"");}
\class FormatQuickTimeApple : Format {
Movie movie;
TimeValue time;
short movie_file;
GWorldPtr gw; /* just like an X11 Image or Pixmap, maybe. */
uint8 *buffer;
P<Dim> dim;
int nframe, nframes;
\constructor (t_symbol *mode, string filename) {
/*vdc=0;*/ movie=0; time=0; movie_file=0; gw=0; buffer=0; dim=0; nframe=0; nframes=0;
int err;
filename = gf_find_file(filename);
FSSpec fss;
FSRef fsr;
err = FSPathMakeRef((const UInt8 *)filename.data(), &fsr, NULL); if (err) goto err;
err = FSGetCatalogInfo(&fsr, kFSCatInfoNone, NULL, NULL, &fss, NULL); if (err) goto err;
err = OpenMovieFile(&fss,&movie_file,fsRdPerm); if (err) goto err;
NewMovieFromFile(&movie, movie_file, NULL, NULL, newMovieActive, NULL);
Rect r;
GetMovieBox(movie, &r);
post("handle=%d movie=%d tracks=%d", movie_file, movie, GetMovieTrackCount(movie));
post("duration=%d; timescale=%d cHz", (long)GetMovieDuration(movie), (long)GetMovieTimeScale(movie));
nframes = GetMovieDuration(movie); /* i don't think so */
post("rect=((%d..%d),(%d..%d))", r.top, r.bottom, r.left, r.right);
OffsetRect(&r, -r.left, -r.top);
SetMovieBox(movie, &r);
dim = new Dim(r.bottom-r.top, r.right-r.left, 4);
SetMoviePlayHints(movie, hintsHighQuality, hintsHighQuality);
buffer = new uint8[dim->prod()];
err = QTNewGWorldFromPtr(&gw, k32ARGBPixelFormat, &r, NULL, NULL, 0, buffer, dim->prod(1));
if (err) goto err;
return;
err:
// RAISE("can't open file `%s': error #%d (%s)", filename.data(), err, rb_str_ptr(rb_funcall(mGridFlow,SI(macerr),1,INT2NUM(err))));
RAISE("can't open file `%s': error #%d (0x%08x)", filename.data(), err, err);
}
~FormatQuickTimeApple() {
if (movie) {
DisposeMovie(movie);
DisposeGWorld(gw);
CloseMovieFile(movie_file);
}
}
\decl 0 codec (string c);
\decl 0 colorspace (string c);
\decl 0 bang ();
\decl 0 seek (int frame);
\decl 0 rewind ();
\grin 0
};
\def 0 seek (int frame) {nframe=frame;}
\def 0 rewind () {_0_seek(0,0,0);}
\def 0 bang () {
CGrafPtr savedPort;
GDHandle savedDevice;
SetMovieGWorld(movie,gw,GetGWorldDevice(gw));
Rect r;
GetMovieBox(movie,&r);
PixMapHandle pixmap = GetGWorldPixMap(gw);
short flags = nextTimeStep;
if (nframe>=nframes) {outlet_bang(bself->te_outlet); return;}
if (nframe==0) flags |= nextTimeEdgeOK;
TimeValue duration;
OSType mediaType = VisualMediaCharacteristic;
GetMovieNextInterestingTime(movie,
flags,1,&mediaType,time,0,&time,&duration);
if (time<0) {
time=0;
outlet_bang(bself->te_outlet);
return;
}
// post("quicktime frame #%d; time=%d duration=%d", nframe, (long)time, (long)duration);
SetMovieTimeValue(movie,nframe*duration);
MoviesTask(movie,0);
GridOutlet out(this,0,dim);
uint32 *bufu32 = (uint32 *)buffer;
int n = dim->prod()/4;
int i;
if (is_le()) {
for (; i<n; i++) {
bufu32[i+0]=bufu32[i+0]>>8;
}
} else {
for (i=0; i<n&-4; i+=4) {
bufu32[i+0]=(bufu32[i+0]<<8)+(bufu32[i+0]>>24);
bufu32[i+1]=(bufu32[i+1]<<8)+(bufu32[i+1]>>24);
bufu32[i+2]=(bufu32[i+2]<<8)+(bufu32[i+2]>>24);
bufu32[i+3]=(bufu32[i+3]<<8)+(bufu32[i+3]>>24);
}
for (; i<n; i++) {
bufu32[i+0]=(bufu32[i+0]<<8)+(bufu32[i+0]>>24);
}
}
out.send(dim->prod(),buffer);
int nf=nframe;
nframe++;
//return INT2NUM(nf);
}
GRID_INLET(0) {
RAISE("Unimplemented. Sorry.");
//!@#$
if (in->dim->n != 3)
RAISE("expecting 3 dimensions: rows,columns,channels");
if (in->dim->get(2) != 3)
RAISE("expecting 3 channels (got %d)",in->dim->get(2));
in->set_chunk(0);
} GRID_FLOW {
} GRID_FINISH {
} GRID_END
\def 0 codec (string c) { RAISE("Unimplemented. Sorry."); }
\def 0 colorspace (string c) { RAISE("Unimplemented. Sorry."); }
\classinfo {
EnterMovies();
install_format("#io.quicktime",4,"mov");
}
\end class FormatQuickTimeApple
void startup_quicktimeapple () {
\startall
}
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